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Thicker Steel?
Louis M - 3/6/04 at 06:29 PM

Wouldn't thicker steel make a stronger chassis? Also, it 12swg, 8swg or 4swg able to be arc welded? I'm trying to get a sense of all the welding equiptment b/c i'm gonna learn on this one... anyway is this too thick for mig, or... i really don't know what i'm talking about simply put: can i arc weld 12, 8 or 4? and would this make the chassis stronger?


Chris_R - 3/6/04 at 06:53 PM

Thicker steel will make a stronger chassis, but it'll also make it very much heavier. Check previous posts about chassis strength and you'll find the suggestion that it's better to add more cross braces than to increase wall thickness, if it is strength that you're looking for.

If your decision to ark weld is motivated by cost, you'll prolly find that, although initially the equipment is cheaper, you will spend more on consumables and spend more time cleaning up your welds. There are some decent MIG's available for little more than the cost of a stick welder and you'll find it easier to learn using a MIG.

The thread I was refering to is at http://locostbuilders.co.uk/viewthread.php?tid=1738

[Edited on 3/6/04 by Chris_R]


Mark Allanson - 3/6/04 at 08:02 PM

You can weld 16g with an arc welder, but it is a bit of a skill - it is much easier with a DC inverter. Use 2.5mm Satinex 6013 rods and the slag will just fall of a good weld. These rods produce a near perfect 45 degree flat fillet and significantly stronger than mig, and prettier.


Louis M - 3/6/04 at 09:26 PM

cost is an issue, but not really a big one... i've always thought that arc welds are supposidely the best looking out of all the welds, so...

also, since the book is 1" and that holds around 300hp (i believe thats the largest i've heard of), what would 1.5" hold?, i'd say its around 625hp? (1x1=1, 1.5x1.5=2.25)


JoelP - 3/6/04 at 09:33 PM

i dont think the relationship is that linear. Plus one gentleman has been running 460bhp in his own chassis, though i dont know how similar to the book it is.

i would concentrate on understanding the chassis, and work out where the strength is needed.


blueshift - 3/6/04 at 09:57 PM

Alternatively wheedle cymtriks into understanding the chassis for you and answering all the important questions

*gives cymtriks a hug*


stephen_gusterson - 3/6/04 at 10:06 PM

I know next to bugger all about welding, but what I do know is arc welding is basically shorting bits of rod on the work. Gives lots of slag and a roughth looking result.

On the other hand, mig if used right, gives a pretty weld, and tig a thing of beauty.

Building a car is an expensive process, of which buying a hobby mig isnt a massive cost when set against the total. On the other hand, if you build a crap chassis from the start, your whole car may be trash.

atb

steve



quote:
Originally posted by Louis M
cost is an issue, but not really a big one... i've always thought that arc welds are supposidely the best looking out of all the welds, so...

also, since the book is 1" and that holds around 300hp (i believe thats the largest i've heard of), what would 1.5" hold?, i'd say its around 625hp? (1x1=1, 1.5x1.5=2.25)


Mark Allanson - 3/6/04 at 10:20 PM

Steve, arc welding produces the finest, cleanest weld of all


Hugh Paterson - 3/6/04 at 10:41 PM

Steve, arc welding is far superior than Mig
in the hands of someone that knows what there doing. But it is unusual for someone to choose to use that method on thin walled tube with the availability of cheap mig equipment
Shug


crbrlfrost - 3/6/04 at 10:47 PM

Seems to me that the "cleanest" weld would be produced by a TIG process due to a lack of flux coatings or inclusions. I'm cetainly not a elding master, but can hold my own most of the time. Not meaning to trample on arc welding, especially on thicker material where nothing else would do the trick, and in the right hands does produce a beautiful weld. But to each their own. Afterall, we're just talking about "casting in place!" Cheers!


Hugh Paterson - 3/6/04 at 11:23 PM

Yup each to their own, Not everyone has the patience for Tig, I think the attraction with Mig is its a pull of a trigger, if u can master the settings and get the torch in the right position its fast n clean. Gimme Tig any day though.
Shug.


rash - 4/6/04 at 05:48 PM

i used 25x25x3 box section for the chassis and arc welded it its still not going to weigh as much as an escort or sierra if your not racing i dont see the point in cutting everything back to the bone?


stephen_gusterson - 4/6/04 at 06:30 PM

told you I knew nothing.

Am I understanding that is the type where you dab a rod against the work, and basically create sparks?

atb

steve


Alan B - 4/6/04 at 07:19 PM

Correct Steve.

Obviously a little more to it than that, but that is basically it.

Louis, yes thicker wall tube is stronger, but it is a very inefficient way of adding strength. If strength and stiffness is a worry then increasing the section is a FAR better return on the weight increase than increasing the wall thickness.

But, of course that would involve significant re-design.


crbrlfrost - 4/6/04 at 10:24 PM

I wouldn't exactly describe the typical locost as "cut to the bone." They are typically light weight, but could be more so if you tried. Besides, light weight contributes to better accel, braking, and fuel economy (which is one I'm feeling right now). Cheers!


stephen_gusterson - 4/6/04 at 10:31 PM

I would....

what else could you leave out and still make a4 wheeled car?


atb

steve


quote:
Originally posted by crbrlfrost
I wouldn't exactly describe the typical locost as "cut to the bone." They are typically light weight, but could be more so if you tried. Besides, light weight contributes to better accel, braking, and fuel economy (which is one I'm feeling right now). Cheers!


Louis M - 5/6/04 at 02:58 AM

quote:
Originally posted by Alan B
Correct Steve.

Obviously a little more to it than that, but that is basically it.

Louis, yes thicker wall tube is stronger, but it is a very inefficient way of adding strength. If strength and stiffness is a worry then increasing the section is a FAR better return on the weight increase than increasing the wall thickness.

But, of course that would involve significant re-design.


two questions:
1) using cymantic's advise on where to add more pieces, then what else can i do?
2) using what rchapman said, the chassis weighs about 40 lbs when fully complete... assuming i went w/ 1.5", then the total weight would be 60 lbs, which i would be willing (i want to save weight but i'm not going to care about 20 lbs here and there) to give up (i got this by saying that a 1x1 piece has a total of 4" circum. while a 1.5x1.5 piece has a total of 6" circum... so therefore the weight shouldn't be THAT large


Cita - 5/6/04 at 06:31 AM

Hi Louis,

it all depends on what you gonna use the car for.If it's just day to day driving than i wouldn't care much about a few pounds extra weigth but bare in mind that weigth adds up quickly!
If you're not an expert welder,like most of us!,than going for thicker wall section will probably ease the job of welding and will add a little strenght without redesigning the whole frame as you should with larger section tubing.
From what i have been reading though the book frame is plenty strong.

good luck!


flak monkey - 5/6/04 at 06:49 AM

Louis M

The weight given in the book of 40lb is very wrong! The whole chassis weighs more like 90kg, 180lb! That chassis he is holding up is aluminium, I'd like to see yu try it with a steel one.

I have a mechanics exam this morning, if not i would sit and work out what steel you would need to make your chassis out of. I would say (without doing any maths) that 1"x1"x3mm would be strong enough, with extra bracing. Though I cant do FEA....

Attached is a pic of the book chassis wieght, complete with extra bracing, wishbones, a steel transmission tunnel (no tubes just 16g steel!), this was modelled in CAD. Just so you dont get you hopes up for being able to pick it up when its finished

Cheers,
David


Cita - 5/6/04 at 07:31 AM

The best of luck with your exam!!!


flak monkey - 5/6/04 at 07:33 AM

Thanks Cita


JoelP - 5/6/04 at 08:41 AM

the weakest area in my humble opinion in a book chassis is the point at the bottom of the scuttle, where the sides kink inwards without any triangulation. if i did one i would be tempted to straighten the sides out, and make them slope gradually inwards along their total length, rather than being parallel at the back.

3mm sounds like overkill to me, surely that would double the weight of the chassis? isnt 16g about 1.5m?


rash - 5/6/04 at 04:40 PM

i cant understand this big obsession with weight saving the biggest saving i can see is the drivers own bodyweight or maybe its just me not thinking along the same lines as everyone???


Mark Allanson - 5/6/04 at 05:15 PM

The additional work using 1/8" steel would be very time consuming. All the welded faces would have to be bevelled or you would have about 1 1/16" penetration, - that would give you a chassis twice as heavy and the same strength, but with awful stress risers on the reverse side of every weld. I know you could turn up the amps to compensate, but then you would have very high profile welds compared to the cross section of the tubes used.


britishtrident - 5/6/04 at 07:52 PM

quote:
Originally posted by flak monkey
Louis M

The weight given in the book of 40lb is very wrong! The whole chassis weighs more like 90kg, 180lb! That chassis he is holding up is aluminium, I'd like to see yu try it with a steel one.

I have a mechanics exam this morning, if not i would sit and work out what steel you would need to make your chassis out of. I would say (without doing any maths) that 1"x1"x3mm would be strong enough, with extra bracing. Though I cant do FEA....

Attached is a pic of the book chassis wieght, complete with extra bracing, wishbones, a steel transmission tunnel (no tubes just 16g steel!), this was modelled in CAD. Just so you dont get you hopes up for being able to pick it up when its finished

Cheers,
David


Original Lotus 7 S2 Chassis weighs about 40 pounds --- but it was 1.2 mm round tube and a very sparse space frame.

Unpaneled bare book chassis without seatbelt mounts rack and engine mounts is about 75 pounds, mine is creeping towards 90 because of lots extra diagonal bracing.


1.5 or 1.6 mm is easy to weld with MIG and it has one hidden advantage over thicker steel in the hands of a novice welder --- any deffects in welds are much more likely to be visible not hidden sub surface.
1.5/1.6 also cuts very easily -- 1.2 needs very fine pitch blades while anything thicker is a lot more work.

[Edited on 5/6/04 by britishtrident]


leto - 5/6/04 at 07:52 PM

the biggest saving

Allthough saving weight on the driver is a good idea, replacing the engine is a faster.
From a recent discussion on the Swedish Locost forum:

Crossflow 1597cc 110kg

Pinto 1996cc 135kg

Zetec 1796cc & 1988cc 115kg

Suzuki Swift GTi 1300 DOHC 55 kg

Yamaha R1 incl. gearbox 62kg

[Edited on 04-6-5 by leto]


imull - 5/6/04 at 09:55 PM

The best way to increase stength in tubes is to increase the diameter rather than the wall thickness.

Not sure if its the same for box section but would guess so as the second moment of area equations are the same idea from memory...

If it was me I would look at using the usual and adding extra bracing. This will increase strength, torsional rigidity and therefore handling far more than the gains that you owuld get by using a thicker tube.


Louis M - 6/6/04 at 12:34 AM

Alright, so I've heard arguments saying thicker is better and that wider is better... any consensus?


Cita - 6/6/04 at 06:09 AM

Thicker section:more weigth
little gain in strength
perhaps easier to weld for the novice(i'm not sure about this though)

Bigger section:more weight
more gain in strength
needs redesign of frame

Nobody can answer the question of what to do Louis,it's up to you what you think is best suited for the car you want to build.
The fact that whole books have been filled on the design of space frames says it all.
There is no "specific rule" for a "specific frame" and if you need to make a consensus than i would go for more bracing with smaller section tubing,all IMHO.


leto - 6/6/04 at 07:18 AM

quote:
Originally posted by Cita
than i would go for more bracing with smaller section tubing,all IMHO.


Fully agreed, IMHO.

Take a look at Australian builds, every self built chassis have to be tested there.
In Sweden there is a recommendation to use tubing with 2mm walls, it is said to easier to make good welds.


Louis M - 6/6/04 at 07:37 PM

when you say redo the whole car, the overall design of the car will stay the same, but there will be diff. measurements... is that what you meant? if so, then i am doing that anyway so i mine as well do that...


stephen_gusterson - 6/6/04 at 10:17 PM

for me, it was a lot easier to source 2mm square...

atb

steve


crbrlfrost - 7/6/04 at 04:26 AM

Hey stephan, I didn't mean to imply that the locost is a luxury car and there are a lot of amenities, but there are places to par weight from it. Just wanted to clarify. I am actually using .049 wall tubing, approx 1.2mm, .020 (.5mm) aluminium sandwich panels bonded. I don't really expect to save weight, although I should be inline with others, my goal was torsional stiffness. Is it overkill? Yes. But its educational at the same time. I've built a book chassis and frankly I think it is plenty sufficient in terms of strength. I'd agree a little thicker is probably easier to learn to weld on though, especially arc or gas. But, happy building! Cheers!